english page Deutsche Seite Druckversion
Position: www.dpg-physik.de  >  dpg  >  gliederung  >  fv  >  mm  >  themen.html

Themenkreise für die Frühjahrstagung in Dresden vom 19. - 24. März 2017

Die Anmeldungen für Beiträge gliedern sich in folgende Themenkreise:

Eingeladene Hauptvortragende:

  • Ralf Busch (Universität des Saarlandes, Deutschland)
  • Karsten Durst (TU Darmstadt, Deutschland)
  • Florian Kargl (DLR Köln, Deutschland)
  • Verena Maier-Kiener (Montanuniversität Leoben, Österreich)
  • David J. Srolovitz (University of Pennsylvania, USA)
  • Mira Todorova (MPIE Düsseldorf, Deutschland)
  • Daniel Urban (Universität Freiburg, Deutschland)

Auf der Frühjahrstagung Dresden 2017 finden folgende interne Symposien statt:

  • Fachübergreifendes Symposium SYLI und Topical Session (Symposium MM): Interfacial Challenges in Solid-State Li Ion Batteries

    Das Fachübergreifende Symposium SYLI "Interfacial Challenges in Solid-State Li Ion Batteries" der Fachverbände MM, O, HL wird als Topical Session (Symposium des Fachverbands MM) fortgefürt.


    The electrification of road transportation is generally considered the next important frontier for electrochemical energy storage, and it is currently debated whether prevailing Li ion batteries will ever be suitable for full mass-market electrification. Presently, a wave of optimism is building in the battery community that most of the limitations of conventional Li ion batteries for electric vehicles (safety, limited energy densities) can be addressed by using a solid-state electrolyte (SSE) in place of the traditional liquid one. Unfortunately, present-day all-solid-state batteries are still largely characterized by extremely low current (power) densities. This is ascribed to interfacial resistances, possibly arising from imperfect morphology or chemistry (in particular Li depletion layers) at the interfaces. The use of super-ionic SSEs, nanostructured interfaces, or blending with ion-conducting polymer gels appear as promising routes to overcome these resistances. However, as the exact reason for interfacial resistances is not even known for simple model systems, research along these lines is thus far largely empirical. A more directed exploration and therewith shortened innovation cycles require a detailed, atomic-scale characterization and concomitant understanding of the structures and the ionic transport at the buried electrode–SSE interfaces. Unfortunately, current characterization techniques do not yet provide a comprehensive picture. For example, microscopy methods provide direct structural information, but do not cover mobility on the relevant timescales, and electrical contacting to apply an external potential is extremely challenging. Electrochemical impedance spectroscopy (EIS) is suitable to investigate mobility and resistance in battery cells and half-cells, but the information is indirect and requires modeling of the data using ad-hoc equivalent circuit models. Magnetic resonance is able to study ion mobility in materials as well as in cells, but the sensitivity of the method only allows for non-localized investigations, in particular when considering interfaces. This highlights the necessity for a multimodal analytical approach combined with theoretical multiscale modeling to obtain a mechanistic understanding that will facilitate rational material design for solid-state batteries. This symposium will highlight corresponding studies and discuss current frontiers.

    Eingeladene Sprecher:

    • Helmut Ehrenberg (KIT, Deutschland)
    • Jürgen Janek (Justus-Liebig-Universität Giessen, Deutschland)
    • Alan Luntz (Standford University, USA)
    • Hans-Dieter Wiemhöfer (Universität Münster, Deutschland)


      Prof. Dr. Rüdiger Eichel
      Forschungszentrum Jülich
      Institut für Energie- und Klimaforschung
      Ostring O10
      D-52425 Jülich, Deutschland
      Phone: +49 2461 61-4644
      Fax: +49 2461 61-4155
      E-Mail: r.eichel at fz-juelich.de

      Prof. Dr. Karsten Reuter
      Technische Universität München
      Theoretische Chemie
      Lichtenbergstr. 4
      D-85747 Garching, Deutschland
      Phone1: +49 89 289 13616
      Fax: +49 89 289 13622
      Email: karsten.reuter at ch.tum.de

  • Topical session (Symposium MM): Interface-Controlled Microstructures: Mechanical Properties and Mechano-Chemical Coupling


    Materials with a large specific interface area, such as nanocrystalline or nanoporous structures exhibit many interesting interfacial phenomena, which may be derived from energy functions that depend strongly on deformation variables or stresses, as well as on the local chemical composition. Such mechano-chemical coupling has important implications for materials properties such as toughness, deformability, compliance, and it enables novel functionalization schemes, for instance for sensing and actuation. With this workshop, we aim at presenting and discussing the state of the art in experiment, modeling and theory of interfacial properties – mechanical, chemical, and coupling-related – and of how they feed into interface-controlled mechanical and functional materials behavior.

    We welcome abstracts on topics related (but not limited) to
    • Chemo-mechanical coupling at interfaces and in materials functionalization schemes
    • Segregation and embrittlement
    • Local deformation at interfaces and the conjugated interfacial stresses
    • Dislocation interaction with interfaces, size effects
    • Crack initiation and propagation at interfaces, grain boundary engineering

    Eingeladene Sprecher:

    • David J. Srolovitz (University of Pennsylvania, USA)
    • Nadiia Mameka (Helmholtz-Zentrum Geesthacht, Deutschland)
    • Erik Bitzek (Friedrich-Alexander-Universität Erlangen-Nürnberg, Deutschland)
    • Petr Šesták (Brno University of Technology, Tschechien)
    • Stefan Zaefferer (MPIE Düsseldorf, Deutschland)


      Dr. Rebecca Janisch
      Ruhr-Universität Bochum
      Universitätsstraße 90A
      D-44789 Bochum, Deutschland
      Phone: +49 234 32 29304
      Fax: +49 234 32 14990
      E-Mail: rebecca.janisch at rub.de

      Prof. Dr. Jörg Weißmüller
      Institut für Werkstoffphysik und -technologie
      TU Hamburg-Harburg
      Eißendorfer Straße 42 (M)
      D-21073 Hamburg, Deutschland
      Phone: +49 40 42878 3035
      Fax: +49 40 42878 4070
      E-Mail: weissmueller at tuhh.de

      Prof. Dr. Karsten Durst
      Physikalische Metallkunde
      Technische Universität Darmstadt
      Alarich-Weiss-Straße 2
      D-64287 Darmstadt, Deutschland
      Phone: +49 6151 16 20550
      Fax: ++49 6151 16 20555
      E-Mail: k.durst at phm.tu-darmstadt.de

      Prof. Dr. Carl Krill
      Institut für Mikro- und Nanomaterialien
      Universität Ulm
      Albert-Einstein-Allee 47
      D-89081 Ulm, Deutschland
      Phone: +49 731 5025476
      Fax: +49 731 5025488
      E-Mail: carl.krill at uni-ulm.de

  • Topical session (Symposium MM): Dynamics, relaxation and deformation in deeply supercooled metallic liquids and glasses


    Metallic glasses are advanced metallurgical materials with growing technological and scientific interest. Atomic-scale processes occurring in the liquid state control the properties of mass transport, structure formation and solidification, which greatly impact the material properties of the resulting glass. Thus, in order to ensure the success of metallic glasses as viable commercial products, and to facilitate better knowledge-based design strategies from the melt, it is imperative to establish a deeper understanding of the physical properties across atomic, nanometer and mesoscopic length scales. This topical session aims to bring together researchers working across various branches of experiment, simulation and theory. Special emphasis will be placed on the application of innovative techniques and methodology for exploring the microscopic link between structure, dynamics and materials properties in these systems. The scope of this topical session includes related themes relevant to the larger glassy dynamics community. We therefore especially encourage participation from those in the fields of granular and soft matter glasses.

    The following topics will be broadly covered during the topical session:
    • Atomic structure and dynamics of metallic liquids
    • Aging and out-of-equilibrium dynamics in glasses
    • Microscopic processes of deformation
    • Simulation and theoretical techniques

    Eingeladene Sprecher:

    • Alexandra Lagogianni (Georg-August-Universität Göttingen, Deutschland)
    • Andreas Meyer (DLR Köln, Deutschland)
    • Beatrice Ruta (ESRF Grenoble, Frankreich)
    • Fathollah Varnik (ICAMS, Ruhr-Universität Bochum, Deutschland)
    • Alessio Zaccone (Chemical Engineering and Biotechnology, University of Cambridge, UK)


      Dr. Zach Evenson
      Heinz Maier-Leibnitz Center (MLZ)
      Research Neutron Source FRM II
      Technische Universität München
      Lichtenbergstr. 1
      D-85747 Garching, Deutschland
      Phone: +49 89 289 14975
      Fax: +49 89 289 14989
      E-Mail: zachary.evenson at frm2.tum.de

      Prof. Dr. Gerhard Wilde
      Institut für Materialphysik
      Westfälische-Wilhelms-Universität Münster
      Wilhelm-Klemm-Str. 10
      D-48149 Münster, Deutschland
      Phone: +49 83 33576
      Fax: +49 83 38346
      E-Mail: gerhard.wilde at uni-muenster.de

  • Topical session (Symposium MM): Data driven materials design

    Today more and more easily accessible data is available than only a few years ago. This comprises results from combinatorial or automated experiments as well as data from high-throughput calculations or information stored in thermodynamical, chemical and physical databases. The availability of big data has led to establish data science as a new focus in materials physics with the overarching aim of developing new materials faster and more efficiently than it was possible before. In this symposium we will review the current state of the art of data in the field of materials science. Topics that will be addressed and where abstracts are welcome are:

    • Generation, organization, and integration of data from various experimental and computational sources
    • Characterization, curation and error analysis of available data
    • Development of models and materials from data
    • Coverage of all length and time scales relevant for materials science

    The symposium will consist of invited and contributed talks and a poster session. Contributions should highlight the importance of data for progress in materials science by providing best practice examples, by addressing open questions, by contributing to method development or similar.

    Eingeladene Sprecher:


    • Igor Abrikosov (Linkoping University, Schweden)
    • Bill Curtin (EPFL Lausanne, Schweiz)
    • Martin Friák (Czech Academy of Sciences, Brno, Tschechien)
    • Alfred Ludwig (Ruhr-Universität Bochum, Deutschland))
    • Roger Reed (University of Oxford, UK)


      Prof. Dr. Jörg Neugebauer
      Max-Planck-Institut für Eisenforschung
      Computational Materials Design
      Max-Planck-Str. 1
      D-40237 Düsseldorf, Deutschland
      Phone: +49 211 6792 572
      Fax: +49 211 6792 465
      E-Mail: neugebauer at mpie.de

      Prof. Dr. Ralf Drautz
      Ruhr-Universität Bochum
      Chair of Atomistic Modelling and Simulation
      Universitätsstraße 90a
      D-44789 Bochum, Deutschland
      Phone: +49 234 32 29308
      Fax: +49 234 32 14977
      E-Mail: ralf.drautz at rub.de

© Deutsche Physikalische Gesellschaft | letzte Änderung 15.11.2016, 15:08 | Impressum | Datenschutz | Kontakt | Bearbeiten